DE2901282A1 - Thermostatic actuator with thermally expanding filler - has piston projecting from housing at both ends for push and pull actuation - Google Patents

Abstract

The thermostatic actuator, such as may be used to actuate a valve in a cooling circuit, comprises a tubular housing (30), a thermally expanding filler (35) contained in an elastomeric envelope (20), and an axially movable actuator piston (10). The piston extends through the envelope and projects from the housing at both ends. The piston may have a conical transition (12,14) engaged by the envelope so that the piston moves in an axial direction when the filler expands. The envelope may surround the cylindrical contours of the piston whilst being located in the housing via collars (22,24) at both ends. The external housing (30) has inwardly projecting rims to retain the spacing washer (50) and bush (52).

Description

Thermostatic working element

The invention relates to a thermostatic working element in one tubular housing with an expansion material in a plastic sleeve and a working piston that can be actuated in the longitudinal direction.

Thermostatic working elements are already known, for example for regulating the flow in a heating circuit or cooling water circuit. A well-known expansion element consists of a brass housing, a brass cover, a nipple diaphragm and a working piston.

The working piston is arranged in a nipple diaphragm and has a conical end. When the temperature rises, it is pushed out of the stretch material the nipple diaphragm and thereby drives the working piston out of the housing out.

The stroke of the working piston generated in this way actuates, for example, one Valve disc. When the ambient temperature of the expansion element drops, a presses Counter-pressure spring back the working piston back into the housing.

The known design has the disadvantage that the working piston only performs a pressure movement when the temperature rises. This pressure movement is also directed only in one direction with respect to the housing.

The object of the invention is therefore to provide a thermostatic working element to create of the type mentioned, in which the disadvantages of the known design be avoided.

In particular, it should be achieved that on the housing above the working piston as the temperature rises, either a pushing movement or a pulling movement can be removed is.

A thermostatic working element is used to solve this problem proposed according to the preamble of claim 1 and it is according to the characterizing part of claim 1 formed.

The advantage of this arrangement according to the invention is that the working piston in the event of a temperature rise on one end face of the housing, a pulling movement and executes a pressure movement on the other end of the housing. In this way the thermostatic working element is more versatile. Is for example a pulling motion to close when the temperature rises in a control system a valve is required, a direct connection of the working piston is not required further mechanically diverting parts possible.

An embodiment according to the invention consists according to claims 2 to 4 in that the plastic shell surrounds the working piston like a cylinder, with means a wedge-shaped transition from one piston part to the other piston part is a shoulder is formed for engaging the plastic sleeve for longitudinal movement.

The advantage of this design is that the working piston increases when the temperature rises from its initial position by the expansion of the expansion material of the plastic cover is movable in one direction, the pulling movement on the one hand and the Pressure movement on the other side of the working piston can be removed directly from it is.

Another embodiment according to the invention consists in accordance with the claims 4 and 5 in that an upper and a lower collar are formed on the plastic casing between which a spacer sleeve is mounted. The respective one is sufficient Point up to the housing wall and is between the spacer sleeve and clamped in a housing cover. It is advantageous in this embodiment that the Plastic shell is firmly clamped by means of a spacer sleeve and housing cover, wherein the expansion material is limited by the plastic sleeve and the spacer sleeve and the Housing cover also guides the working piston.

Another embodiment according to the invention consists in accordance with the claim 6 in that the upper and lower collar each between an outwardly Section of the housing and a cover placed over it are included, each collar with its outer bearing surface on the inner wall of the housing is present.

The advantage of this design is that for series production Few parts are required because the respective collar of the plastic sleeve is directly is clamped between the housing and the respective cover.

A further advantageous embodiment consists in accordance with the claims 7 and 8 in that an upper working piston and a lower working piston in series are arranged to one another, with a first piston tip and a second piston tip, in the middle of the housing at a constriction of the plastic shell opposite stand, the two working pistons on a centric in the longitudinal direction the working piston guided through the guide rod are movable.

The advantage of this design is that the working element with two pistons, performing a pressure movement in opposite directions, in particular can be used in devices in which the housing is not attached, but is held on the working piston itself.

In the drawings are various embodiments of the invention shown schematically: They show: FIG. 1 A by means of vertical Cut open housing.

2 shows a housing cut open by means of a vertical section in a different structural design than FIG. 1.

3 shows a housing cut open by means of a vertical section two pistons set against each other.

According to FIG. 1, the working element according to the invention consists of the housing 30, which is tubular and on the lower and upper end face is closed with the lids 50, 52. The working piston is located inside the housing 30 10 arranged centrally and enclosed by a plastic sleeve 20. The plastic cover 20 is surrounded by an expansion material 35, which when the temperature rises in the Around the device. The expansion material 35 presses over the consumable plastic sleeve 20 on all sides. The plastic sleeve 20 is preferably made of elastomer. On the working piston 10 is a wedge-shaped transition 14 from the upper piston part 16 of larger cross-section to the lower piston part 18 of smaller cross-section in Form of a shoulder 16 is formed. The expansion material 35 presses over the plastic cover 20 on this paragraph 1.6 and thereby moves the working piston 10 in the longitudinal direction to tubular housing 30.

The working piston 10 is through a first opening 21, a second Opening 23 of the plastic cover 20, a third opening 51 Ilanddeckel 50 and one fourth opening 53 on cover 52 led out of housing 30. By increasing the temperature is a pressure movement on the upper piston part 16 and a pressure movement on the lower piston part 18 Removable pulling movement. Thus, the working element is optional with its lower Piston part 16, 18 or with both piston parts 16, 18 as a mechanical functional part applicable. The plastic sleeve 20 is over its upper collar 22 and its lower The collar 24 is held by a spacer tube 60 and the covers 52 and lies on the inner wall of the housing 30. After assembly of the aforementioned parts in the Housing 30 are the covers 50, 52 with an upper and a lower bead 30, 38, which extends over the cover, secured. It would also be conceivable in the Plastic sleeve 20 to integrate the spacer tube 60 and the expansion compound 35 in such a way that that these parts 35, 60 in the manufacture of the plastic sleeve 20 with in this are incorporated.

According to FIG. 2, the plastic sleeve 20 is in front of a working element its upper and lower collar 22, 24 directly between the respective paragraph 86, 88 of the housing 30 of the respective cover 90, 92 clamped. The housing 30 acts as a spacer sleeve for the plastic sleeve. It is again conceivable in this design, in the plastic sleeve 20 to enclose the expansion material 35 so that the plastic sleeve 20 is introduced into the housing 30 with the expansion material 35 filled therein.

According to FIG. 3, an upper and a lower one are in a working element Pistons 116, 118 arranged one behind the other on a guide rod 119 in the longitudinal direction. When the temperature increases in the vicinity of the device, the expansion material 135 presses over the constriction 117 on the piston tips 113, 115. As a result, the pistons 116, 118 in each case a pressure movement in the longitudinal direction from the center outwards. the Pressure movements are on the first and second connection side 191, 193 of the piston 116, 118 removable.

Claims (8)

PATENTANS PRÜCHE Thermostatic working element in a tubular Housing, with one expansion material in a plastic sleeve and one in the longitudinal direction actuatable working piston are provided, characterized in that the working piston (10, 116, 118) is passed through the plastic sleeve (20, 120) and on two Set of the housing (30, 130) is led out. 2. Thermostatic working element according to claim 1, characterized in that that the working piston (10) has a shoulder (12) for engaging the plastic cover (20) for longitudinal movement. 3. Thermostatic working element according to claim 2, characterized in that that as a shoulder (12) a wedge-shaped transition (14) from an upper piston part (16) Larger diameter is provided to a lower piston part (18) of smaller diameter is. 4. Thermostatic working element according to one or more of the previous ones Claims 1 to 3, characterized in that the plastic casing (20) is the working piston (10) surrounds like a cylinder and on the housing (30) with at least one upper and one lower collar (22, 24) is supported, 5. Thermostatic working element according to claim 4, characterized in that the upper and the lower collar (22, 24) each between the upper cover (50, 52) and a bend (62, 64) of a spacer tube (60) is included, the outer bearing surface (26, 28) of the respective federal government on the inner wall (32, 34) of the housing (30). 6. Thermostatic working element according to claim 4, characterized in that that the upper and the lower collar (22, 24) each between an outwardly directed Shoulder (86, 88) of the housing (30) and a cover (90, 92) are included, each collar with its larger contact surface (26, 28) rests against the inner wall (32, 34) of the housing. 7. Thermostatic working element according to claim 1, characterized in that that an upper working piston (116) and a lower working piston (118) in series with one another are arranged, with a first piston tip (113) and a second piston tip (115) in the middle of the housing (130) at a constriction (117) of the plastic cover (120) face each other. 8. Thermostatic working element according to claim 7, characterized in that that the two working pistons (116, 118) on a centric in the longitudinal direction the guide rod (119) guided through the working piston can be moved.